Battery Pack Prospects for Long-Haul Transport Trucks Considering Electrified Highways and Megawatt Charging
Abstract
:1. Introduction
2. Study Scope and Methodology
2.1. Route
2.2. Scenarios
- A 100% electrified highway (providing 200 kW at 85% uptake efficiency [10] to the truck)
- A 50% electrified highway with alternating sections of 20 km that are electrified (at 400 kW) or non-electrified
- A 50% electrified highway with alternating sections of 2 km that are electrified (at 400 kW) or non-electrified
2.3. Electric Truck Battery Sizing
3. Modeling Overview
3.1. Primer on Battery Degradation
3.2. Mode Switching Effects
3.3. Battery Life Model
3.4. Economic Model
4. Results
4.1. Daily Operation and Battery Life
4.2. Reference and Base e-Hwy Cases
4.3. Intermittent e-Hwy Configurations
4.4. Effect of Highway Electrification Power Level
4.5. Highway Power Levels Allowing Intermittency
4.6. Discussion of the Operational Duration Effect
4.7. Economic Evaluation
5. Conclusions
Author Contributions
Funding
Data Availability Statement
Conflicts of Interest
Abbreviations
BET | battery electric truck |
BMS | battery management system |
CPT | conductive power transfer |
DOD | depth of discharge |
DWPT | dynamic wireless power transfer |
e-Hwy | electrified roadway furnishing DWPT |
EOL | battery EOL life value, in years |
EV | electric vehicle |
OCV | open-circuit voltage |
P2D | pseudo two-dimensional |
SEI | solid-electrolyte interface |
SOC | state of charge |
SOH | state of health |
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Battery Size (kWh) [banks] | Megawatt Charging | = 200 kW 100% Electrified Highway | = 400 kW 50% Electrified (20 km on/off) | = 400 kW 50% Electrified (2 km on/off) | ||||
---|---|---|---|---|---|---|---|---|
equiv. cycles | EOL | equiv. cycles | EOL | equiv. cycles | EOL | equiv. cycles | EOL | |
267 [4] | 3872 | 15.89 | 6059 | 6.24 | 6888 | 6.98 | ||
401 [6] | 3089 | 18.86 | 7232 | 10.87 | 7667 | 11.22 | ||
534 [8] | 2481 | 20.12 | 7022 | 13.97 | 7194 | 14.08 | ||
1068 [16] | 4235 | 8.41 |
Megwatt Charging | 100% Electrified Highway | 50% Electrified (20 km on/off) | 50% Electrified (2 km on/off) | ||||
---|---|---|---|---|---|---|---|
Battery size (kWh) | 1068 | 267 | 534 | 267 | 534 | 267 | 534 |
banks | 16 | 4 | 8 | 4 | 8 | 4 | 8 |
Battery use | $0.048 | $0.006 | $0.010 | $0.016 | $0.015 | $0.015 | $0.014 |
Capital costs | $0.102 | $0.161 | $0.161 | $0.136 | $0.136 | $0.148 | $0.148 |
Electricity | $0.243 | $0.242 | $0.241 | $0.264 | $0.250 | $0.266 | $0.250 |
Total | $0.394 | $0.409 | $0.412 | $0.417 | $0.401 | $0.429 | $0.413 |
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Darcovich, K.; Ribberink, H.; Qiu, K.; Soufflet, E. Battery Pack Prospects for Long-Haul Transport Trucks Considering Electrified Highways and Megawatt Charging. World Electr. Veh. J. 2023, 14, 60. https://doi.org/10.3390/wevj14030060
Darcovich K, Ribberink H, Qiu K, Soufflet E. Battery Pack Prospects for Long-Haul Transport Trucks Considering Electrified Highways and Megawatt Charging. World Electric Vehicle Journal. 2023; 14(3):60. https://doi.org/10.3390/wevj14030060
Chicago/Turabian StyleDarcovich, K., H. Ribberink, K. Qiu, and E. Soufflet. 2023. "Battery Pack Prospects for Long-Haul Transport Trucks Considering Electrified Highways and Megawatt Charging" World Electric Vehicle Journal 14, no. 3: 60. https://doi.org/10.3390/wevj14030060
APA StyleDarcovich, K., Ribberink, H., Qiu, K., & Soufflet, E. (2023). Battery Pack Prospects for Long-Haul Transport Trucks Considering Electrified Highways and Megawatt Charging. World Electric Vehicle Journal, 14(3), 60. https://doi.org/10.3390/wevj14030060